JP2021161902A - Water jacket - Google Patents

Abstract

To provide a water jacket capable of alleviating stress generating on a cylinder block even when a slit for connecting a cooling passage is provided between adjacent cylinders.SOLUTION: A water jacket 4 includes: a cooling passage 4c which is formed, in a cylinder block 1 where a plurality of cylinders are formed, so as to be positioned outside the cylinders, and in which a cooling medium flows; and a cooling groove which is formed between adjacent cylinders and in which the cooling medium flows. In a cross-sectional view of a slit end part 5b in the arrangement direction of the cylinders, the slit end part 5b and a cylinder block inner wall 4a are continued via an inclination part 6 which inclines so as to be thicker toward the cylinder block inner wall 4a.SELECTED DRAWING: Figure 2

Description

The present invention relates to a water jacket for a cylinder block of an internal combustion engine.

Conventionally, a plurality of cylinder bores arranged in the axial direction of the crank shaft are formed in a cylinder block in which cylinder heads are stacked, and a cooling passage opened toward the cylinder head is formed so as to surround a group of cylinder bores. The part of the cooling passage located between the adjacent cylinder bores is a drive-in portion that enters the side of the cylinder row center line connecting the centers of each cylinder bore, and the drive-in portion is far from the cylinder row center line. It consists of a deep groove that is located on the side and has almost the same depth as other parts, and a shallow groove that is located on the side close to the center line of the cylinder row and has a shallow depth. The shallow groove is formed in the cylinder block. In addition, a spacer for adjusting the flow rate is fitted in the cooling passage, and the flow of the coolant is mainly passed through the shallow groove portion in the portion of the spacer fitted in the driven portion of the cooling passage. There is known a water jacket in which the regulating portion to be regulated is formed so as to be partially inserted into the shallow groove portion (see, for example, Patent Document 1).

Japanese Patent No. 5964092

In order to improve the cooling performance of the cylinder block, it is conceivable to provide slits extending so as to be orthogonal to the cylinder arrangement direction between adjacent cylinders.

However, if the cooling performance is improved by providing a slit between the adjacent cylinders, the temperature difference between the parts of the cylinder block becomes large, so that thermal stress is generated.

Further, if a slit is provided between adjacent cylinders, the cylinders are heated and try to expand, so that compressive stress is generated in the slit to counter this expansion, and stress concentration occurs.

In view of the above points, it is an object of the present invention to provide a water jacket capable of relieving stress generated in a cylinder block even if a slit connecting a cooling passage is provided between adjacent cylinders.

[1] In order to achieve the above object, the water jacket of the present invention (for example, the water jacket 4 of the embodiment; the same shall apply hereinafter) may be used.
A cylinder block (for example, the cylinder block 1 of the embodiment; the same shall apply hereinafter) formed with a plurality of cylinders (for example, the cylinder liner 2 of the embodiment; the same shall apply hereinafter) is formed so as to be located outside the cylinder. A cooling passage (for example, the cooling passage 4c of the embodiment; the same applies hereinafter) through which the cooling medium (for example, the cooling medium of the embodiment; the same applies hereinafter) flows.
A cooling groove (for example, slit 5 of the embodiment; the same applies hereinafter) formed between adjacent cylinders through which a cooling medium flows.
It is a water jacket equipped with
In a cross-sectional view of the end of the cooling groove (for example, the slit end 5b of the embodiment; the same applies hereinafter) in the cylinder arrangement direction (for example, the arrangement direction of the embodiment; the same applies hereinafter), the end of the cooling groove and the end of the cooling groove. The inner wall of the cooling passage (for example, the cylinder block inner wall 4a of the embodiment; the same applies hereinafter) is an inclined portion (for example, the inclined portion 6 of the embodiment; the same applies hereinafter) that is inclined so as to become thicker toward the inner wall of the cooling passage. ) Is continuous.

According to the present invention, the end of the cooling groove and the inner wall of the cooling passage are continuous through the inclined portion, and the thermal stress and the compressive stress in the cooling groove are dispersed through the inclined portion. As a result, the stress generated in the cylinder block can be relaxed even if a cooling groove connecting the cooling passages is provided between the adjacent cylinders.

[2] Further, in the present invention,
Between adjacent cylinders, a first curved side surface (for example, the first curved side surface 11 of the embodiment; the same applies hereinafter) that curves and extends from the side wall side of one cylinder and the other from the side edge of the first curved side surface. A flat wall surface parallel to the cylinder arrangement direction extending toward the cylinder (for example, the flat wall surface 12 of the embodiment; the same applies hereinafter) and a second curved side surface extending from the flat wall surface toward the other cylinder (for example). , The second curved side surface of the embodiment. The same shall apply hereinafter.)
The cooling groove is preferably provided on the flat wall surface.

According to the present invention, since the cooling groove is provided on the flat wall surface, it becomes difficult for thermal stress and compressive stress to concentrate in the cooling groove. Therefore, even if a cooling groove connecting the cooling passages is provided between the adjacent cylinders, the stress generated in the cylinder block can be relaxed.

[3] Further, the water jacket of the present invention is
A cooling passage through which a cooling medium formed so as to be located outside the cylinder flows through a cylinder block in which a plurality of cylinders are formed.
A cooling groove formed between the adjacent cylinders through which a cooling medium flows, and
It is a water jacket equipped with
Between the adjacent cylinders, a first curved side surface curved from the side wall side of one cylinder and a flat wall surface parallel to the cylinder arrangement direction extending from the side edge of the first curved side surface toward the other cylinder, and the above. It is continuous with the second curved side surface that extends from the flat wall surface while curving toward the other cylinder.
The cooling groove is provided on the flat wall surface.

According to the present invention, since the cooling groove is provided on the flat wall surface, it becomes difficult for thermal stress and compressive stress to concentrate in the cooling groove. Therefore, even if a cooling groove connecting the cooling passages is provided between the adjacent cylinders, the stress generated in the cylinder block can be relaxed.

Explanatory drawing which shows the cylinder block which comprises the water jacket of embodiment of the invention. The perspective view which shows the end part of the slit of this embodiment. The cross-sectional view which shows the inclined part of this embodiment. The plan view which shows the end part of the slit of this embodiment.

A cylinder block including a water jacket according to an embodiment of the present invention will be described with reference to the drawings.

With reference to FIG. 1, the cylinder block 1 of the internal combustion engine of the present embodiment includes four cylinder liners 2 (corresponding to the cylinder of the present invention), a cylinder block main body 3 holding the cylinder liner 2, and a cylinder liner. A water jacket 4 provided on the cylinder block main body 3 so as to cover the side surface of the 2 is provided.

The water jacket 4 is defined by a cylinder block inner wall 4a that covers the cylinder liner 2 and a cylinder block outer wall 4b formed on the radial outer side of the cylinder liner 2 so as to face the cylinder block inner wall 4a at intervals. It is provided with a cooling passage 4c. In the water jacket 4, the cooling medium (cooling water) flows along the arrangement direction of the cylinder liners 2.

A slit 5 (cooling groove) is provided between the cylinder liners 2 to connect the cooling passages 4c separated to the left and right by the cylinder liner 2 so that the cooling medium can flow. With reference to FIG. 2, the slit bottom portion 5a, which is the bottom of the slit 5, is curved so as to avoid stress concentration.

With reference to FIGS. 2 and 3, the slit end 5b, which is the end of the slit 5, is the inner wall of the cylinder block of the slit end 5b and the cooling passage 4c in the cross-sectional view of the cylinder liner 2 shown in FIG. 3 in the arrangement direction. The 4a is continuous with the inclined portion 6 which is inclined so as to become thicker toward the inner wall 4a of the cylinder block. The inclination angle of the inclined portion 6 is larger than the draft inclination of the cylinder block 1. The upper end curved portion 6a on the slit 5 side of the inclined portion 6 and the lower end curved portion 6b on the cylinder block inner wall 4a side of the inclined portion 6 are provided so as to be close to each other within a range of, for example, 3 mm to 6 mm.

With reference to FIG. 4, between the adjacent cylinder liners 2, a first curved side surface 11 extending so as to be recessed from the cylinder block inner wall 4a side covering one cylinder liner 2 and a side edge of the first curved side surface 11 A flat wall surface 12 parallel to the arrangement direction of the cylinder liners 2 extending from the flat wall surface 12 toward the other cylinder liner 2, and a cylinder block inner wall 4a extending from the flat wall surface 12 so as to cover the other cylinder liner 2 while being curved. It is continuous with the two curved side surfaces 13.

The slit 5 is provided so that the slit end portion 5b is located on the flat wall surface 12.

According to the cylinder block 1 provided with the water jacket 4 of the present embodiment, the slit end portion 5b and the cylinder block inner wall 4a are continuous via the inclined portion 6, and the thermal stress and the compressive stress in the slit 5 are the inclined portion. Dispersed via 6. As a result, even if the slit 5 connecting the cooling passages 4c is provided between the adjacent cylinder liners 2, the stress generated in the cylinder block 1 can be relaxed.

Further, according to the present embodiment, since the slit 5 is provided so that the slit end portion 5b is located on the flat wall surface 12, the slit 5 is compared with the case where the slit end portion is positioned on the curved surface. It becomes difficult for thermal stress and compressive stress to concentrate on. Therefore, even if the slit 5 connecting the cooling passages 4c is provided between the adjacent cylinder liners 2, the stress generated in the cylinder block 1 can be relaxed.

In the present embodiment, all the slits 5 are connected to the inner wall 4a of the cylinder block via the inclined portion 6 and are located on the flat wall surface 12, but the water jacket of the present invention has this. For example, only a part of the slit ends may be connected to the inner wall of the cooling passage via an inclined portion, or only a part of the slit ends may be located on a flat wall surface. Also, the action and effect of the present invention of stress relaxation can be obtained.

Further, in the present embodiment, the one provided with three slits 5 has been described, but the slits of the present invention are not limited to this, and for example, four or more slits may be used regardless of whether the number of slits is one or two. There may be.

1 Cylinder block 2 Cylinder liner (cylinder)
3 Cylinder block body 4 Water jacket 4a Cylinder block inner wall (cooling passage inner wall)
4b Cylinder block outer wall (cooling passage outer wall)
4c Cooling passage 5 Slit (cooling groove)
5a Slit bottom 5b Slit end 6 Inclined part 6a Upper end curved part 6b Lower end curved part 11 First curved side surface 12 Flat wall surface 13 Second curved side surface

Claims (3)

A cooling passage through which a cooling medium formed so as to be located outside the cylinder flows through a cylinder block in which a plurality of cylinders are formed.
A cooling groove formed between the adjacent cylinders through which a cooling medium flows, and
It is a water jacket equipped with
In a cross-sectional view of the end of the cooling groove in the cylinder arrangement direction, the end of the cooling groove and the inner wall of the cooling passage are continuously provided via an inclined portion that is inclined so as to be thicker toward the inner wall of the cooling passage. A water jacket characterized by being. The water jacket according to claim 1.
Between the adjacent cylinders, a first curved side surface curved from the side wall side of one cylinder and a flat wall surface parallel to the cylinder arrangement direction extending from the side edge of the first curved side surface toward the other cylinder, and the above. It is continuous with a second curved side surface that extends from the flat wall surface while curving toward the other cylinder.
A water jacket characterized in that the cooling groove is provided on the flat wall surface. A cooling passage through which a cooling medium formed so as to be located outside the cylinder flows through a cylinder block in which a plurality of cylinders are formed.
A cooling groove formed between the adjacent cylinders through which a cooling medium flows, and
It is a water jacket equipped with
Between the adjacent cylinders, a first curved side surface curved from the side wall side of one cylinder and a flat wall surface parallel to the cylinder arrangement direction extending from the side edge of the first curved side surface toward the other cylinder, and the above. It is continuous with a second curved side surface that extends from the flat wall surface while curving toward the other cylinder.
A water jacket characterized in that the cooling groove is provided on the flat wall surface.

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